周杨

发布者：赵诗琳发布时间：2021-08-01浏览次数：11568

周杨

副教授

中国海洋大学海洋与大气学院

青岛市松岭路238号，266100

电话：+86-13210812312

E-mail：yangzhou@ouc.edu.cn

教育经历：

2001/09-2005/06山东大学环境工程学士

2005/09-2012/06山东大学环境工程博士王文兴院士

2007/12-2009/08北卡罗莱纳大学教堂山分校联合培养博士 Richard M. Kamens教授

工作经历：

2012/10-2015/12香港科技大学环境学部博士后

2016/01-今中国海洋大学海洋与大气学院副教授

主要项目：

[1] 2025/01-2028/12，国家自然科学基金面上项目，沿海气溶胶羟甲基磺酸盐形成机制及其环境影响的研究（42475119），主持，在研

[2] 2025/01-2027/12，山东省自然科学基金面上项目，应用单颗粒及全样分析对华北沿海地区含甲烷磺酸颗粒物的来源及生成机制的研究,主持，在研

[3] 2019/11-2024/10，国家重点研发计划 “北极快速变化的机理、影响及其气候效应研究”（课题四）2019YFA0607004，影响北极未来变化趋势的关键过程、情景与效应研究，骨干，在研

[4] 2020/01-2021/12，国家环境保护城市大气复合污染成因与防治重点实验室开放基金，应用高分辨率质谱对三个沿海城市冬夏两季气溶胶中类腐殖质（HULIS）形成机理的研究，主持，结题

[5] 2019/01-2022/12，国家自然科学基金面上项目，绿潮多发期黄海沿岸大气细粒子中有机胺的形成机制研究（41875155），主持，结题

[6] 2017/01-2019/12，国家自然科学基金青年基金项目，我国近海大气气溶胶老化过程对人为源排放细粒子中Fe溶解度的影响（41605114），主持，结题

[7] 2016/11-2019/02，山东省自然科学基金项目“应用单颗粒质谱仪研究人为源气溶胶老化对其中可溶性重金属Fe的影响”（ZR2016DB02），主持，结题

[8] 2016/01-2021/12，中国海洋大学英才工程第三层次人才计划，主持，结题

[9] 2017/01-2018/12，物理海洋教育部重点实验室自主科研课题，海洋-大气相互作用模拟实验箱的建立，主持，结题

讲授课程：

本科：大气化学；空气污染气象学；PM_2.5和雾霾；化学与生物海洋学（英文课程，共课老师）；国际课程-大气物理与化学、生物地球化学及遥感概论（英文课程，共课老师）

研究生：大气环境化学

研究兴趣：

关注沿海及海洋气溶胶的地球物理化学特性及气溶胶的气候效应。主要研究方向：

1.大气气溶胶传输及其化学过程研究

2.痕量金属及其环境影响/化学气候效应

3. 大气气溶胶单颗粒物研究

4. 大气气溶胶的气候效应

5. 海雾微物理与化学

欢迎感兴趣的同学们加入Hello Aerosol

研究基础：

气溶胶是悬浮在大气中的固体和液体的混合体，可以直接吸收或者散射太阳光照，也可以作为云凝结核影响云的形成和生命周期，通过直接或者间接影响太阳辐射，在区域空气质量和全球气候变化中扮演重要角色。2005年以来一直从事气溶胶理化特征及形成机制研究，近五年基于八关山大气研究观测站（Baguanshan Atmospheric Research Observatory， BARO）和海上巡航观测平台，主要围绕香港及青岛沿海及附近海域大气气体污染物和气溶胶进行在线或离线研究，包括对海洋气溶胶进行单颗粒质谱分析、在线离子色谱及OCEC分析等，通过相关分析对各种污染过程中无机、有机污染气溶胶的形成机制、来源解析进行研究，进而探讨海陆气溶胶的相互作用及其环境、气候影响。尤其关注将气溶胶的单颗粒性质和全样特征相结合，研究气溶胶的理化及其气候环境效应，目前发表SCI论文60余篇，Hindex 22。

发表文章：

2024年

Li, Y., Nie, W., Yan, C., Liu, Y., Xu, Z., Yao, X., Zhou, Y., Chi, X., Ding, A., (2024). Characterization ofvolatile organic compounds over the eastern seas of China in winter. Journal of Geophysical Research: Atmospheres, 129, e2024JD040713,https://doi.org/10.1029/2024JD040713

Zhang, Y., Han, R., Sun, X., Sun, C., Griffith, S. M., Wu, G., Li L., Li W., Zhao Y., Li M., Zhou Z., Wang W., Sheng L., Yu J. Z. & Zhou Y., (2024). Sulfate formation driven by wintertime fog processing and a hydroxymethanesulfonate complex with iron: Observations from single‐particle measurements in Hong Kong. Journal of Geophysical Research: Atmospheres, 129, e2023JD040512,https://doi.org/10.1029/ 2023JD040512(通讯作者)

Li, W., Qi, Y., Liu, Y., Wu, G., Zhang, Y., Shi, J., Qu, W., Sheng, L., Wang, W., Zhang, D., & Zhou, Y. (2024). Daytime and nighttime aerosol soluble iron formation in clean and slightly polluted moist air in a coastal city in eastern China. Atmospheric Chemistry and Physics, 24, 6495–6508,https://doi.org/10.5194/acp-24-6495-2024(通讯作者)

Sun, M. G., Qi, Y. X., Li, W. S., Zhu, W. Q., Yang, Y. Y., Wu, G. R., Zhang, Y. J., Zhao, Y. H., Shi, J. H., Sheng, L. F., Wang, W. C., Liu, Y. C., Qu, W. J., Wang, X. F., & Zhou, Y. (2024). Investigation of a haze-to-dust and dust swing process at a coastal city in northern China part II: A study on the solubility of iron and manganese across aerosol sources and secondary processes. Atmospheric Environment, 328.

https://doi.org/10.1016/j.atmosenv.2024.120532(通讯作者)

Yu, X., Li, Q., Liao, K., Li, Y., Wang, X., Zhou, Y., Liang, Y., & Yu, J. Z. (2024). New measurements reveal a large contribution of nitrogenous molecules to ambient organic aerosol. npj Climate and Atmospheric Science, 7(1), 72.

https://doi.org/10.1038/s41612-024-00620-6

Chen, J., Fu, X., Wang, X., Dong, S., Chen, T., Xue, L., Zhou, Y., Sheng, L., & Wang, W. (2024). Unveiling the overlooked direct emissions of particulate organic nitrates from ship. Environment International, 185, 108487.

https://doi.org/https://doi.org/10.1016/j.envint.2024.108487

Gao, X., Li, W., Sun, X., Hao, Y., Sun, M., Yang, Y., Wu, G., & Zhou, Y. (2024). The important role of nitrate in iron and manganese dissolution and sulfate formation in fine particles at a coastal site in Northern China. Science of The Total Environment, 921, 170318.https://doi.org/https://doi.org/10.1016/j.scitotenv.2024.170318（通讯作者）

Jiang, Y. R., Wang, X. F., Li, M., Liang, Y. H., Liu, Z. Y., Chen, J., Guan, T. Y., Mu, J. S., Zhu, Y. J., Meng, H., Zhou, Y., Yao, L., Xue, L. K., & Wang, W. X. (2024). Comprehensive understanding on sources of high levels of fine particulate nitro-aromatic compounds at a coastal rural area in northern China. Journal of Environmental Sciences, 135, 483-494.https://doi.org/10.1016/j.jes.2022.09.033

Li, Y., Wang, W., Han, Y., Liu, W., Wang, R., Zhang, R., Zhao, Z., Sheng, L., & Zhou, Y. (2024). Impact of COVID-19 emission reduction on dust aerosols and marine chlorophyll-a concentration. Science of The Total Environment, 918, 170493.https://doi.org/https://doi.org/10.1016/j.scitotenv.2024.170493

Yang, Y., Sun, M., Wu, G., Qi, Y., Zhu, W., Zhao, Y., Zhu, Y., Li, W., Zhang, Y., Wang, N., Sheng, L., Wang, W., Yu, X., Yu, J., Yao, X., & Zhou, Y. (2024). Characteristics of aerosol aminiums over a coastal city in North China: Insights from the divergent impacts of marine and terrestrial influences. Science of the Total Environment, 918, 170672.https://doi.org/10.1016/j.scitotenv.2024.170672（通讯作者）

Zhao, Z. X., Wang, W. C., Wang, Y. W., Sheng, L. F., Zhou, Y., & Teng, S. W. (2023). Reasons for Low Fraction of Arctic Stratospheric Cloud in 2014/2015 Winter. Journal of Geophysical Research-Atmospheres, 128(23).https://doi.org/ARTN e2023JD03954910.1029/2023JD039549

Li, Y., Fu, T.-M., Yu, J. Z., Yu, X., Chen, Q., Miao, R.,Zhou, Y., Zhang, A., Ye, J., Yang, X., Tao, S., Liu, H., & Yao, W. (2023). Dissecting the contributions of organic nitrogen aerosols to global atmospheric nitrogen deposition and implications for ecosystems. National Science Review, 10(12). https://doi.org/10.1093/nsr/nwad244

2023年前

[1] Yujue Wang, Yanjing Zhang, Wenshuai Li, Guanru Wu, Yuxuan Qi, Shubin Li, Wenqing Zhu, Jianzhen Yu, Xu Yu, Honghai Zhang, Jun Sun, Wencai Wang, Lifang Sheng, Xiaohong Yao, Huiwang Gao, Cheng Huang, Yingge Ma*, Yang Zhou*, Important Roles and Formation of Atmospheric Organosulfates in Marine Organic Aerosols: Inffuence of Phytoplankton Emissions and Anthropogenic Pollutants, Environmental Science & Technology, 2023, 57, 10284−10294.（通讯作者）

[2] Yanjing Zhang, Wenshuai Li, Lei Li, Mei Li, Zhen Zhou, Jian Zhen Yu, Yang Zhou*, Source apportionment of PM_2.5 using PMF combined online bulk and single particle measurements: Contribution of fireworks and biomass burning, Journal of Environmental Science. (http://dx.doi.org/10.1016/j.scitotenv.2022.158270).（通讯作者）

[3] Wenqing Zhu, Yuxuan Qi, Huihui Tao, Haizhou Zhang, Wenshuai Li, Wenjun Qu, Jinhui Shi, Yingchen Liu, Lifang Sheng, Wencai Wang, Guanru Wu, Yunhui Zhao, Yanjing Zhang, Xiaohong Yao, Xinfeng Wang, Li Yi, Yingge Ma, Yang Zhou*, Investigation of a haze-to-dust and dust swing process at a coastal city in northern China part I: Chemical composition and contributions of anthropogenic and natural sources, Science of the Total Environment, 2022. 851.（通讯作者）

[4] Wenshuai Li, Yuxuan Qi, Wen Qu, Wenjun Qu, Jinhui Shi, Daizhou Zhang, Yingchen Liu, Feng Wu, Yuanyuan Ma, Yanjing Zhang, Danyang. Ren, Xueqing Du, Shishi Yang, Xinfeng Wang, Li Yi, Xiaomei Gao, Wencai Wang, Yingge Ma, Lifang Sheng, Yang Zhou*, Sulfate and nitrate elevation in reverse-transport dust plumes over coastal areas of China, Atmospheric Environment, 2023. 295.（通讯作者）

[5] Wenshuai Li, Yuxuan Qi, Wen Qu, Wenjun Qu, Jinhui Shi, Daizhou Zhang, Yingchen Liu, Yanjing Zhang, Weihang Zhang, Danyang Ren, Yuanyuan Ma, Xinfeng Wang, Li Yi, Lifang Sheng, Yang Zhou*, PM2.5 source apportionment identified with total and soluble elements in positive matrix factorization, Science of the Total Environment, 2023. 858.（通讯作者）

[6] Nana Wang, Yanjing Zhang, Lei Li, Houwen Wang, Yunhui Zhao, Guanru Wu, Mei Li, Zhen Zhou, Xinfeng Wang, Jianzhen Yu, Yang Zhou*, Ambient particle characteristics by single particle aerosol mass spectrometry at a coastal site in Hong Kong: a case study affected by the sea-land breeze, Peerj, 2022. 10.（通讯作者）

[7] Yunhui Zhao, Yanjing Zhang, Xiaodong Li, Lei Li, Limin Feng, Huan Xie, Wenshuai Li, Xiaohuan Liu, Yujiao Zhu, Lifang Sheng, Jianhua Qi, Huiwang Gao, Zhen Zhou, Yang Zhou*, Influence of Ambient Atmospheric Environments on the Mixing State and Source of Oxalate-Containing Particles at Coastal and Suburban Sites in North China, Atmosphere, 2022. 13(5).（通讯作者）

[8] Shishi Yang, Zilin Wang, Xin Huang*, Wencai Wang, Lifang Sheng, Yang Zhou*, Meteorological feedback and eco-environmental impact of Asian dust: A simulation study, Atmospheric Environment, 2021. 253.（通讯作者）

[9] Yang Zhou*, Yanjing Zhang, Stephen M. Griffith, Guanru Wu, Lei Li, Yunhui Zhao, Mei Li, Zhen Zhou and Jian Zhen Yu*, Field Evidence of Fe-Mediated Photochemical Degradation of Oxalate and Subsequent Sulfate Formation Observed by Single Particle Mass Spectrometry, Environmental Science & Technology, 2020, doi: 10.1021/acs.est.0c00443. (通讯作者)

[10] Wenshuai Li, Wencai Wang, Yang Zhou*, Yuanyuan Ma, Daizhou Zhang and Lifang Sheng*, Occurrence and Reverse Transport of Severe Dust Storms Associated with Synoptic Weather in East Asia, Atmosphere 2019, 10(1), 4; doi:10.3390/atmos10010004. (通讯作者)

[11] Yang Zhou, X. H. Hilda Huang, Stephen M. Griffith, Mei Li, Lei Li, Zhen Zhou, Junwang Meng, Chak K. Chan, Peter K. K. Louie, Jian Zhen Yu, A field measurement based scaling approach for quantification of major ions, organic carbon, and elemental carbon using a single particle aerosol mass spectrometer, Atmospheric Environment, 2016. 143, 300-312

[12] Yang Zhou, Xiaohui Hilda Huang, Qijing Bian, Stephen M. Griffith, Peter K. K. Louie, Jian Zhen Yu, Sources and atmospheric processes impacting oxalate at a suburban coastal site in Hong Kong: Insights inferred from 1 year hourly measurements, Journal of Geophysical Research Atmospheres, 2015, 120, doi:10.1002/2015JD023531.

[13] Yang Zhou, Elias P Rosen, Haofei Zhang, Weruka Rattanavaraha, Wenxing Wang, Richard M Kamens, SO2 oxidation and nucleation studies at near-atmospheric conditions in outdoor smog chamber, Environmental Chemistry, 2013, 10, 210-220.

[14] Yang Zhou, Likun Xue, Tao Wang, Xiaomei Gao, Zhe Wang, Xinfeng Wang, Jiamin Zhang, Qingzhu Zhang, Wenxing Wang, Characterization of aerosol acidity at a high mountain site in central eastern China, Atmospheric Environment, 2012, 51, 11-20.

[15] Yang Zhou, Tao Wang, Xiaomei Gao, Likun Xue, Xinfeng Wang, Zhe Wang, Jian Gao, Qingzhu Zhang, Wenxing Wang, Continuous observations of water-soluble ions in PM2.5 at Mount Tai (1534 m asl) in central-eastern China, Journal of Atmospheric Chemistry, 2009, 64, 107-127.

[16] Yang Zhou, Haofei Zhang, Harshal M Parikh, Eric H Chen, Weruka Rattanavaraha, Elias P Rosen, Wenxing Wang, Richard M Kamens, Secondary organic aerosol formation from xylenes and mixtures of toluene and xylenes in an atmospheric urban hydrocarbon mixture: Water and particle seed effects (II), Atmospheric Environment, 2011, 45, 3882-3890.

[17]马媛媛，周杨*，盛立芳，王文彩，郁建珍. 造成香港空气污染的环流聚类特征及对细颗粒物的影响[J]. 地球化学50.1 (2021): 1-11. （通讯作者）

[18] 任丹阳, 周杨*，吴冠儒，盛立芳，王文彩，郁建珍. 香港郊区站点冬季污染背景下气溶胶消光特征及其与细颗粒物化学组成关系[J]. 地球化学 50.1 (2021): 12-21. （通讯作者）

[19]齐宇轩，周杨*.大气气溶胶中的铁及其溶解度研究综述[J].海洋气象学报, 2021.（通讯作者）

[20]朱文清, 高文琦, 王文彩, 周杨*. 秋冬季沙尘传输路径特征及其对华北空气质量的影响 [J]. 海洋气象学报. （接收，通讯作者）

[21]吴冠儒, 张艳靖, 李磊, 周振, 姚小红, 周杨*. 应用单颗粒质谱对冬季不同污染条件下青岛沿海站点气溶胶的来源解析 [J]. 中国海洋大学学报(自然科学版).（接收，通讯作者）

[22] Weihang Zhang, Shangfei Hai, Yunhui Zhao, Lifang Sheng, Yang Zhou, Wencai Wang, Wenshuai Li. Numerical modeling of regional transport of PM2.5 during a severe pollution event in the Beijing-Tianjin-Hebei region in November 2015, Atmospheric Environment, 2021. 254.

[23] Chunqiang Chen, Lei Huang, Jinhui Shi, Yang Zhou, Jiao Wang, Xiaohong Yao, Huiwang Gao, Yayong Liu, Jia Xing, Xiaohuan Liu, Atmospheric outflow of anthropogenic iron and its deposition to China adjacent seas, Science of The Total Environment, 2021. 750, 141302.

[24] Y. W. Kong, L. F. Sheng, Y. P. Li, W. H. Zhang, Y. Zhou, W. C. Wang, Y. H. Zhao, Improving PM2.5 forecast during haze episodes over China based on a coupled 4D-LETKF and WRF-Chem system, Atmospheric Research, 2021. 249.

[25] Lei Sun, Tianshu Chen, Ying Jiang, Yang Zhou, Lifang Sheng, Jintai Lin, Juan Li, Can Dong, Chen Wang, Xinfeng Wang, Qingzhu Zhang, Wenxing Wang, Likun Xue, Ship emission of nitrous acid (HONO) and its impacts on the marine atmospheric oxidation chemistry, Science of The Total Environment, 2020. 735, 139355.

[26] Wencai Wang, Chenghan Luo, Lifang Sheng, Chuanfeng Zhao, Yang Zhou, Yonghang Chen, Effects of biomass burning on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observations and WRF-Chem model simulations: A case study, Atmospheric Research, 2021. 254, 105526.

[27] W. C. Wang, Z. Z. He, S. F. Hai, L. F. Sheng, Y. Q. Han, Y. Zhou, Dust Aerosol's Deposition and its Effects on Chlorophyll-A Concentrations Based on Multi-Sensor Satellite Observations and Model Simulations: A Case Study, Frontiers in Environmental Science, 2022. 10.

[28] L. Y. Zhao, W. C. Wang, T. Y. Hao, W. J. Qu, L. F. Sheng, C. H. Luo, X. D. An, Y. Zhou, The autumn haze-fog episode enhanced by the transport of dust aerosols in the Tianjin area, Atmospheric Environment, 2020. 237.

[29] Chenghan Luo, Wencai Wang, Lifang Sheng, Yang Zhou, Zhiyuan Hu, Wenjun Qu, Xiaodong Li, Shangfei Hai. Influence of polluted dust on chlorophyll-a concentration and particulate organic carbon in the subarctic North Pacific Ocean based on satellite observation and the WRF-Chem simulation, Atmospheric Research, 2020. 236.

[30] Luo, Y., Zhou, X., Zhang, J., Xiao, Y., Wang, Z., & Zhou, Y., et al. (2018). PM 2.5, pollution in a petrochemical industry city of northern china: seasonal variation and source apportionment. Atmospheric Research.

[31] Wenjun Qu, Jun Wang, Xiaoye Zhang, Yaqiang Wang, Shanhong Gao, Chuanhu Zhao, Linyuan Sun, Yang Zhou, Wencai Wang, Xiaohuan Liu, Effect of weakened diurnal evolution of atmospheric boundary layer to air pollution over eastern China associated to aerosol, cloud – ABL feedback, Atmospheric Environment, 2018.

[32] Wu, R., Zhou, X., Wang, L., Wang, Z., Zhou, Y., & Zhang, J., et al. (2017). Pm2.5 characteristics in qingdao and across coastal cities in china. Atmosphere, 8(4).

[33] Nie, W., Hong, J., Häme, S. A. K., Ding, A., Li, Y., & Yan, C., et al. (2017). Volatility of mixed atmospheric humic-like substances and ammonium sulfate particles. Atmospheric Chemistry & Physics, 17(5), 3659-3672.

[34] Qian Liu, Ziqi Cao, Lifang Sheng, Yina Diao, Wencai Wang, Yang Zhou, Jingyi Qiu, Possible connection between the East Asian summer monsoon and a swing of the haze-fog-prone aera in eastern China Theor. Appl. Climatol 2017 (5): 1-11.

[35] Liu, Q., Sheng, L., Cao, Z., Diao, Y., Wang, W., & Zhou, Y. (2017). Dual effects of the winter monsoon on haze‐fog variations in eastern china. Journal of Geophysical Research Atmospheres, 122(11).

[36] Harshal M Parikh, Annmarie G Carlton, Yang Zhou, Haofei Zhang, Richard M Kamens, William Vizuete, Modeling secondary organic aerosol formation from xylene and aromatic mixtures using a dynamic partitioning approach incorporating particle aqueous-phase chemistry (II), Atmospheric Environment, 2012, 56, 250-260.

[37] Haofei Zhang, Weruka Rattanavaraha, Yang Zhou, Jyoti Bapat, Elias P Rosen, Kenneth G Sexton, Richard M Kamens, A new gas-phase condensed mechanism of isoprene-NO x photooxidation, Atmospheric Environment, 2011, 45, 4507-4521.

[38] Lingxiao Yang, Xuehua Zhou, Zhe Wang, Yang Zhou, Shuhui Cheng, Pengju Xu, Xiaomei Gao, Wei Nie, Xinfeng Wang, Wenxing Wang, Airborne fine particulate pollution in Jinan, China: concentrations, chemical compositions and influence on visibility impairment, Atmospheric Environment, 2012, 55, 506-514.

[39] Richard M Kamens, Haofei Zhang, Eric H Chen, Yang Zhou, Harshal M Parikh, Rebecca L Wilson, Katherine E Galloway, Elias P Rosen, Secondary organic aerosol formation from toluene in an atmospheric hydrocarbon mixture: water and particle seed effects, Atmospheric Environment, 2011, 45, 2324-2334.

[40] Xiaomei Gao, Lingxiao Yang, Shuhui Cheng, Rui Gao, Yang Zhou, Likun Xue, Youping Shou, Jing Wang, Xinfeng Wang, Wei Nie, Semi-continuous measurement of water-soluble ions in PM 2.5 in Jinan, China: temporal variations and source apportionments, Atmospheric Environment, 2011, 45, 6048-6056.

[41] Shuhui Cheng, Lingxiao Yang, Xuehua Zhou, Zhe Wang, Yang Zhou, Xiaomei Gao, Wei Nie, Xinfeng Wang, Pengju Xu, Wenxing Wang, Evaluating PM2. 5 ionic components and source apportionment in Jinan, China from 2004 to 2008 using trajectory statistical methods, Journal of Environmental Monitoring, 2011, 13, 1662-1671.

[42] ShuHui Cheng, LingXiao Yang, XueHua Zhou, LiKun Xue, XiaoMei Gao, Yang Zhou, WenXing Wang, Size-fractionated water-soluble ions, situ pH and water content in aerosol on hazy days and the influences on visibility impairment in Jinan, China, Atmospheric Environment, 2011, 45, 4631-4640.

[43] Zhe Wang, Tao Wang, Rui Gao, Likun Xue, Jia Guo, Yang Zhou, Wei Nie, Xinfeng Wang, Pengju Xu, Jian Gao, Source and variation of carbonaceous aerosols at Mount Tai, North China: Results from a semi-continuous instrument, Atmospheric Environment, 2011, 45, 1655-1667.

[44] Xinfeng Wang, Wenxing Wang, Likun Xue, Xiaomei Gao, Wei Nie, Yangchun Yu, Yang Zhou, Lingxiao Yang, Qingzhu Zhang, Tao Wang, Size-resolved aerosol ionic composition and secondary formation at Mount Heng in South Central China, Frontiers of Environmental Science & Engineering, 2013, 7, 815-826.

[45] Yan Wang, Jia Guo, Tao Wang, Aijun Ding, Jian Gao, Yang Zhou, Jeffrey L Collett, Wenxing Wang, Influence of regional pollution and sandstorms on the chemical composition of cloud/fog at the summit of Mt. Taishan in northern China, Atmospheric Research, 2011, 99, 434-442.

[46] Xiaomei Gao, Likun Xue, Xinfeng Wang, Tao Wang, Chao Yuan, Rui Gao, Yang Zhou, Wei Nie, Qingzhu Zhang, Wenxing Wang, Aerosol ionic components at Mt. Heng in central southern China: abundances, size distribution, and impacts of long-range transport, Science of the Total Environment, 2012, 433, 498-506.

[47] Zhe Wang, Tao Wang, Jia Guo, Rui Gao, Likun Xue, Jiamin Zhang, Yang Zhou, Xuehua Zhou, Qingzhu Zhang, Wenxing Wang, Formation of secondary organic carbon and cloud impact on carbonaceous aerosols at Mount Tai, North China, Atmospheric Environment, 2012, 46, 516-527.

[48] Xinfeng Wang, Wenxing Wang, Lingxiao Yang, Xiaomei Gao, Wei Nie, Yangchun Yu, Pengju Xu, Yang Zhou, Zhe Wang, The secondary formation of inorganic aerosols in the droplet mode through heterogeneous aqueous reactions under haze conditions, Atmospheric Environment, 2012, 63, 68-76.

[49] LingXiao Yang, DongCheng Wang, ShuHui Cheng, Zhe Wang, Yang Zhou, Xue-Hua Zhou, WenXing Wang, Influence of meteorological conditions and particulate matter on visual range impairment in Jinan, China, Science of the Total Environment, 2007, 383, 164-173.

[50]高健,周杨,王进,王韬,王文兴, WPS^ TM-TEOM^ TM-MOUDI^ TM的对比及大气气溶胶密度研究,环境科学, 2007, 28, 1929-1934.

[51]高晓梅,王韬,周杨,薛丽坤,张庆竹,王新锋,聂玮,王文兴,王德众,泰山春,夏两季大气颗粒物及其水溶性无机离子的粒径分布特征,环境化学, 2011, 30, 686-692.

Yang ZHOU

Associate Professor

College of Oceanic and Atmospheric Sciences

Ocean University of China

238 Songling Rd, Qingdao 266100, China

Tel: +86-13210812312

Email:yangzhou@ouc.edu.cn

Education

2001/09-2005/06 B.S. in Environmental Engineering, Shandong University

2005/09-2012/06 Ph.D. in Environmental Engineering, Shandong University

2007/12-2009/08 Joint Ph.D. candidate, University of North Carolina at Chapel Hill

EMPLOYMENT

2012/10-2015/12 Postdoc, HKUST, Division of Environment

2016/01-present Associate Professor, Ocean University of China

Major PROJECTS

2025/01-2028/12, NSFC project “Study on formation mechanism of hydroxymethylsulfonate in coastal aerosol and its environmental effects” (42475119), 480k, PI, Ongoing Research.
2015/01-2027/12，Natural Science Foundation of Shandong Province “Research on the Sources and Formation Mechanisms of Formic Acid Sulfonate Particulate Matter in the North China Coastal Area Using Single Particle Mass Spectrometry”100K，PI, Ongoing Research.
2019/11-2024/10，National Key R&D Program “Research on the Mechanisms, Impacts, and Climate Effects of Rapid Changes in the Arctic” (Project 4), 2019YFA0607004, Research on Key Processes, Scenarios, and Effects Influencing Future Change Trends in the Arctic, Participate, Ongoing Research.
2020/01-2021/12, Open Fund of the National Environmental Protection Key Laboratory for the Causes and Prevention of Urban Atmospheric Complex Pollution “Research on the Formation Mechanisms of Humic-like Substances (HULIS) in Aerosols from Three Coastal Cities During Winter and Summer Using High-Resolution Mass Spectrometry”, PI, Completed.
2019/01-2022/12, NSFC project，“Amine formation in fine particles along the coast of Yellow Sea during the bloom of Green Tides”（41875155），620K，PI
2017/01-2020/12, NSFC project “Impact of aerosol aging on the solubility of anthropogenic iron in the fine particles over China coast seas” (41605114), 220k, PI, Completed.
2016/11-2019/02，Natural Science Foundation of Shandong Province “Aerosol aging on the solubility of anthropogenic iron in the fine particles by using single particle mass spectrometer”（ZR2016DB02），80K，PI, Completed.
2016/01-2021/12，“Youth Talent” program of Ocean University of China，100k，PI, Completed.
2017/01-2018/12, Seed Research Foundation by the KEY LABORATORY OF PHYSICAL OCEANOGRAPYH·MOE·OUC，An Atmosphere-Sea interaction simulation Chamber system（ASC），80K，PI, Completed.

REFEREED PUBLICATIONS

2024~

Li, W.; Qi, Y.; Liu, Y.; Wu, G.; Zhang, Y.; Shi, J.; Qu, W.; Sheng, L.; Wang, W.; Zhang, D.; Zhou, Y., Daytime and nighttime aerosol soluble iron formation in clean and slightly polluted moist air in a coastal city in eastern China. Atmospheric Chemistry and Physics, 24, 6495–6508,https://doi.org/10.5194/acp-24-6495-2024(Corresponding Author)

https://doi.org/10.1016/j.atmosenv.2024.120532(Corresponding Author)

~2023

[1] Yujue Wang, Yanjing Zhang, Wenshuai Li, Guanru Wu, Yuxuan Qi, Shubin Li, Wenqing Zhu, Jianzhen Yu, Xu Yu, Honghai Zhang, Jun Sun, Wencai Wang, Lifang Sheng, Xiaohong Yao, Huiwang Gao, Cheng Huang, Yingge Ma*, Yang Zhou*, Important Roles and Formation of Atmospheric Organosulfates in Marine Organic Aerosols: Inffuence of Phytoplankton Emissions and Anthropogenic Pollutants, Environmental Science & Technology, 2023, 57, 10284−10294. (Corresponding Author)

[2] Yanjing Zhang, Wenshuai Li, Lei Li, Mei Li, Zhen Zhou, Jian Zhen Yu, Yang Zhou*, Source apportionment of PM_2.5 using PMF combined online bulk and single particle measurements: Contribution of fireworks and biomass burning, Journal of Environmental Science. (http://dx.doi.org/10.1016/j.scitotenv.2022.158270). (Corresponding Author)

[3] Wenqing Zhu, Yuxuan Qi, Huihui Tao, Haizhou Zhang, Wenshuai Li, Wenjun Qu, Jinhui Shi, Yingchen Liu, Lifang Sheng, Wencai Wang, Guanru Wu, Yunhui Zhao, Yanjing Zhang, Xiaohong Yao, Xinfeng Wang, Li Yi, Yingge Ma, Yang Zhou*, Investigation of a haze-to-dust and dust swing process at a coastal city in northern China part I: Chemical composition and contributions of anthropogenic and natural sources, Science of the Total Environment, 2022. 851.(Corresponding Author)

[4] Wenshuai Li, Yuxuan Qi, Wen Qu, Wenjun Qu, Jinhui Shi, Daizhou Zhang, Yingchen Liu, Feng Wu, Yuanyuan Ma, Yanjing Zhang, Danyang. Ren, Xueqing Du, Shishi Yang, Xinfeng Wang, Li Yi, Xiaomei Gao, Wencai Wang, Yingge Ma, Lifang Sheng, Yang Zhou*, Sulfate and nitrate elevation in reverse-transport dust plumes over coastal areas of China, Atmospheric Environment, 2023. 295.(Corresponding Author)

[5] Wenshuai Li, Yuxuan Qi, Wen Qu, Wenjun Qu, Jinhui Shi, Daizhou Zhang, Yingchen Liu, Yanjing Zhang, Weihang Zhang, Danyang Ren, Yuanyuan Ma, Xinfeng Wang, Li Yi, Lifang Sheng, Yang Zhou*, PM2.5 source apportionment identified with total and soluble elements in positive matrix factorization, Science of the Total Environment, 2023. 858. (Corresponding Author)

[8] Shishi Yang, Zilin Wang, Xin Huang*, Wencai Wang, Lifang Sheng, Yang Zhou*, Meteorological feedback and eco-environmental impact of Asian dust: A simulation study, Atmospheric Environment, 2021. 253.(Corresponding Author)

[9] Yang Zhou*, Yanjing Zhang, Stephen M. Griffith, Guanru Wu, Lei Li, Yunhui Zhao, Mei Li, Zhen Zhou and Jian Zhen Yu*, Field Evidence of Fe-Mediated Photochemical Degradation of Oxalate and Subsequent Sulfate Formation Observed by Single Particle Mass Spectrometry, Environmental Science & Technology, 2020, doi: 10.1021/acs.est.0c00443. (Corresponding Author)

[10] Wenshuai Li, Wencai Wang, Yang Zhou*, Yuanyuan Ma, Daizhou Zhang and Lifang Sheng*, Occurrence and Reverse Transport of Severe Dust Storms Associated with Synoptic Weather in East Asia, Atmosphere 2019, 10(1), 4; doi:10.3390/atmos10010004. (Corresponding Author)

[12] Yang Zhou, Xiaohui Hilda Huang, Qijing Bian, Stephen M. Griffith, Peter K. K. Louie, Jian Zhen Yu, Sources and atmospheric processes impacting oxalate at a suburban coastal site in Hong Kong: Insights inferred from 1 year hourly measurements, Journal of Geophysical Research Atmospheres, 2015, 120, doi:10.1002/2015JD023531.

[15] Yang Zhou, Tao Wang, Xiaomei Gao, Likun Xue, Xinfeng Wang, Zhe Wang, Jian Gao, Qingzhu Zhang, Wenxing Wang, Continuous observations of water-soluble ions in PM2.5 at Mount Tai (1534 m asl) in central-eastern China, Journal of Atmospheric Chemistry, 2009, 64, 107-127.

[17]马媛媛，周杨*，盛立芳，王文彩，郁建珍. 造成香港空气污染的环流聚类特征及对细颗粒物的影响[J]. 地球化学50.1 (2021): 1-11. （通讯作者）

[19]齐宇轩，周杨*.大气气溶胶中的铁及其溶解度研究综述[J].海洋气象学报, 2021.（通讯作者）

[20]朱文清, 高文琦, 王文彩, 周杨*. 秋冬季沙尘传输路径特征及其对华北空气质量的影响 [J]. 海洋气象学报. （接收，通讯作者）

[32] Wu, R., Zhou, X., Wang, L., Wang, Z., Zhou, Y., & Zhang, J., et al. (2017). Pm2.5 characteristics in qingdao and across coastal cities in china. Atmosphere, 8(4).

[50]高健,周杨,王进,王韬,王文兴, WPS^ TM-TEOM^ TM-MOUDI^ TM的对比及大气气溶胶密度研究,环境科学, 2007, 28, 1929-1934.

Courses

Undergraduate: Atmospheric chemistry; Air pollution meteorology; PM_2.5and Haze; Chemical Oceanography (Co- teacher); International Course—Physics and Chemistry of the Atmosphere, Biogeochemistry and an Introduction of Remote Sensing (Co-teacher)

Graduate: Atmospheric Environmental Chemistry

Research Interests

1.Ageing Process of Aerosols and its Long-Range Transport

2.Trace elements and their environmental impact/chemical climate

3. Single Particle Analysis of aerosols

4. Aerosol and its Climate Effects

5. Marine Fog: Microphysics and Chemistry